Data from "Design of lightweight high temperature structural materials based on refractory compositionally complex alloys, Part I: mechanical properties and phase stability"

Radi, Amin; Schliephake, Daniel; Sen, Sandipan; Vikram, R. J.; Dixit, Shubhashis; Riedel, Jan L.; Yang, Liu; Tang, Chongchong; Gorr, Bronislava; Kauffmann, Alexander; Heilmaier, Martin

doi:10.35097/rsaezhcaf97uuc1z

Data from "Design of lightweight high temperature structural materials based on refractory compositionally complex alloys, Part I: mechanical properties and phase stability"

Radi, Amin ¹; Schliephake, Daniel

¹; Sen, Sandipan ¹; Vikram, R. J. ¹; Dixit, Shubhashis

¹; Riedel, Jan L. ¹; Yang, Liu ¹; Tang, Chongchong ²; Gorr, Bronislava ²; Kauffmann, Alexander

; Heilmaier, Martin ¹
¹ Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK), Karlsruher Institut für Technologie (KIT)
² Institut für Angewandte Materialien – Angewandte Werkstoffphysik (IAM-AWP), Karlsruher Institut für Technologie (KIT)

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Seitenaufrufe: 86
seit 20.08.2025

Zugehörige Institution(en) am KIT	Institut für Angewandte Materialien – Angewandte Werkstoffphysik (IAM-AWP) Institut für Angewandte Materialien – Werkstoffkunde (IAM-WK)
Publikationstyp	Forschungsdaten
Publikationsdatum	20.08.2025
Erstellungsdatum	18.08.2025
Identifikator	DOI: 10.35097/rsaezhcaf97uuc1z KITopen-ID: 1000184106
HGF-Programm	38.04.01 (POF IV, LK 01) Gas turbines
Lizenz	Creative Commons Namensnennung – Weitergabe unter gleichen Bedingungen 4.0 International
Liesmich	T1 = 48.0Ti-25.0Mo-12.0Ta-10.0Cr-5.0Al (at.%) T2 = 44.0Ti-20.0Mo-15.0Ta-15.0Cr-6.0Al (at.%) T3 = 54.0Ti-10.0Mo-15.0Ta-15.0Cr-6.0Al (at.%) Liquid = liquid phase BCC_A2 = A2 solid phase BCC_A2 = B2 solid Phase Laves_C15 = C15 solid Laves phase AC = as-cast condition HT = homogenized and furnace-cooled condition 800C_1000h = 800 °C/1000 h heat-treated in glass ampoule and water-quenched 1000C_1000h = 1000 °C/1000 h heat-treated in glass ampoule and water-quenched 10 Kpmin = heating rate of 10 K/min 40 Kpmin = heating rate of 10 K/min RT = room temperature 400C = 400 °C 600C = 600 °C 800C = 800 °C 900C = 900 °C 1000C = 1000 °C Fig. 1: Thermodynamic calculations from FactSage, temperature T in °C vs. atomic phase fraction in 1 Fig. 2: Scanning electron micrographs (backscattered electron contrast imaging) in AC and heat-treated condition Fig. 3: X-ray diffaction patterns with intensity in 1 vs. 2Theta in ° Fig. 4: Differential scanning calorimetry data with heat capacity Cp in J/(gK) vs. temperature in °C and time in min (proprietary .xlxs file) Fig. 5: Compression test results in proprietary *.tra files that require TestExpert Software Fig. 7: Scanning electron micrographs (backscattered electron contrast imaging) after compression tests Fig. S1: Thermodynamic calculations from Pandat with PanRHEA, temperature T in °C vs. atomic phase fraction in 1
Art der Forschungsdaten	Dataset

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Data from "Design of lightweight high temperature structural materials based on refractory compositionally complex alloys, Part I: mechanical properties and phase stability"